Press Release Summary:
Supplied in die form, Model CMD196 features low insertion loss of 1.75 dB, high isolation of 46 dB, and port return losses better than -15 dB at 14 GHz. Pair of complimentary voltage lines at 0/-5 V control switching action without need for external bias supply. With typical switching speed of 1.8 nS, general-purpose broadband switch is suited for microwave radio and VSAT, telecom infrastructure, test instrumentation, and military end uses.
Original Press Release:
DC-28 GHz SPDT Non-Reflective Switch Offers Low Insertion Loss
Westford, MA — Custom MMIC, (www.CustomMMIC.com), a developer of performance-driven monolithic microwave integrated circuits (MMICs), is pleased to announce the release of the CMD196, a DC-28 GHz, non-reflective, SPDT switch in die form, to their growing line of control products.
Covering DC to 28 GHz, the CMD196 features low insertion loss of 1.75 dB, high isolation of 46 dB, and port return losses better than -15 dB at 14 GHz. A pair of complimentary voltage lines at 0 / -5 V control the switching action without the need for an external bias supply. Switching speed is typically 1.8 nS.
The CMD196 is a general purpose, broadband, high-isolation, non-reflective MMIC SPDT switch in die form. Optimum applications for the new switch are microwave radio and VSAT, telecom infrastructure, test instrumentation, and military end-use.
To download the full datasheet for the CMD196 SPDT, non-reflective Switch, visit the Custom MMIC Product Library.
About Custom MMIC
Custom MMIC represents a new way of thinking about MMICs. Driven by customer challenges, the company offers both hands-on design through testing services, and a growing library of system-ready designs. They are experienced in GaAs, GaN, SiC, InP, and InGaP HBT and have established relationships with the leading foundries in these technologies. They specialize in RF through millimeter-wave circuits for satellite communications, radar systems, cellular infrastructure, consumer electronics, VSAT, and point-to-point radio systems. For more information, visit www.CustomMMIC.com.